SU562186A3 - Container for liquid materials - Google Patents

Description

walls and intersecting reinforcement elements are connected to each other by a pipe;

to fasten a slab to the lower irodol beam of the container, which would protrude from the beams and the protruding part was attached to the shell, and to the slab to attach longitudinal strips:

install reinforcing arcuate elements connecting the longitudinal beams.

FIG. 1-3 depicts the proposed koytainer in a perspective view, with a partial section (implementation options); in fig. 4- end part of the container; in fig. 5-8 - reinforcing elements (embodiments); in fig. 9-container bottom view.

The container consists of open cylindrical, and parallel-arranged shells 1 with a loading hatch 2 and end walls, including rectangular frames 3 with corner plates 4, connecting elements 5 and hermetically connected to them, cylindrical iso-curved wall elements 6, forming which is located vertically. The cylindrical shells are interconnected by longitudinal edges along line 7 and butt welded to the end walls.

On the outer side of the container, above and in the middle shell 8, placed between the shells 1, are installed longitudinal beams 9 of L-shaped section, the vertical flanges of which are located in the planes of the lines 7. The same planes contain the reinforcing elements 10 in the form of strips . The bands of the bands come out on the O | bolt, may have a rectangular 11 or trapezoidal 12 shape. These ends are welded to the vertical flanges of the beam 9 overlapped or into the notches 13 in these shelves.

Depending on the length of the container, one or several reinforcing rings 14 are provided connecting the upper and lower longitudinal beams 9 and, if necessary, passing into the saddle 15. The shapes of their upper and lower end portions 16 do not follow the bending of the wall sections.

In order to create space for a manhole 2 located at one end of the container, the upper longitudinal beam 9 directly passes into the end wall at the other end of the conveyor. The end of the longitudinal beam 9 facing the hatch forms a step 17 from which the inclined braces 18 extend to the corners of the end wall. The space between the beam ledge 17, the braces 18 and the transverse beam of the end wall 1 can open a trap bath.

From the remaining corners of the end walls of the container, inclined bracings 18 can also extend to the middle longitudinal beams in order to divert the accelerating and braking loads from the corner linings 4. These braces can be made in the form of rectangular beams (see FIG. 1) or in the form of kerchiefs 19 (see FIG. 4). The drain (outlet) reinforcement can be installed in the usual way in the middle of the end wall or on the side, behind the corner plate (see reinforcement box 20 in Fig. 4).

In the container shown in FIG. 2, only two shells 1 are provided, welded to each other along the upper and lower intersection lines 7 for mounting reinforcing elements 10. Longitudinal beams 9 are installed outside, offset from the middle in opposite directions, so that their vertical shelves are in the plane of elements 10 , and the other, short, shelves are butt-welded with an appropriate shell. This asymmetrical design is particularly effective at high container heights. In these containers, two spherical stances 21 are inserted into the end frames with fitting. Their vertically passing intersection line 22 forms either a simple weld (see Fig. 2), or is equipped with an indirect or curvilinear reinforcing element 5 (see Fig. 1 ).

In this embodiment of the container, the inclined braces are not used, and otherwise it is identical to the container shown in FIG. one.

The container shown in FIG. 3, has two end walls, made square.

In the frame 3, spherically convex wall elements 23 are inserted, one for each frame, ensuring hydraulic sealing. Four partially cylindrical shells 1 for butting the frames; they are symmetrical and, therefore, have the same radius of curvature.

Thus, their cross-section has the form of a four-leafed clover leaf, due to which the square cross-section of the frame is most used. The container has horizontal and vertical reinforcing elements 10.

Separate reinforcement elements at intersection points are connected to each other with kerchiefs 24. Inside the container, a central longitudinally extending tube 25 (see Fig. 5) is provided, to which separate reinforcement elements are attached.

In order to increase buckling resistance, the reinforcing elements 10 can be bent in a spiral (see Fig. 6). The twisting of the ends of this reinforcement element with respect to each other is 180 ° or a multiple of this value.

Claims (15)

In order to increase the resistance to bending and buckling, the reinforcing elements can also be made in the form of tubes of round 26 and oval 27 sections (see Fig. 7 and 8). In order for the ends 28 of the reinforcement elements in the plane of the connecting seams to protrude from the inside of the container, they are made flattened. In order to further increase the compressive strength, longitudinal beams 9 attach a plate 29, which protrudes away from the beams and with a projecting part attached to the shell. Longitudinal strips are attached to the slab 30. Claim 1. A container for liquid materials containing a sealed reservoir formed by at least TWO parallelly spaced, unclosed, approximately cylindrical shaped shells interconnected along the edge, and two torped walls composed of mogonal frames with corner plates and wall elements built into the frames that are protruding to the outside, and their own hatch, as well as at least two longitudinal beams of an L-shape, adjacent to the shells of the window and rigidly attached to the walls and interconnected by reinforcing elements extending through the reservoir and stretching to work, characterized in that, in order to increase the accuracy of compression and ease of cleaning, one shelf of each longitudinal beam is located approximately in the plane of two opposite edges of the shell, and the connecting elements are located in this plane. 2. Container according to claim 1, characterized in that the reinforcing elements are made of strips of sheet material. 3.Container on PP. 1 and 2, that is, so that the ends of the reinforcing elements are connected to the shelves of the longitudinal beams overlapped. 4.Container on PP. 1-3, characterized in that the ends of the reinforcement elements are trapezoidal. 5.Container on PP. I and 2. characterized in that cuts are made in the shelves of the longitudinal beams and the ends of the reinforcing elements are inserted into them. 6.Container on PP. I-5, characterized in that the reinforcing elements of a strip of sheet material are curved along a helical line. 7. A container according to Claim 1, characterized in that the reinforcing elements are made of rods of predominantly circular cross-section, with flattened ends. 8. The container according to claim I is distinguished by the fact that the angled plates and the LONGITUDINAL beams are inclined to the longitudinal vertical plane of symmetry of the communication container. 9.Container on PP. 1-5, characterized in that the longitudinal beams p are flush relative to the other, so that their vertical flanges are in a dear vertical plane with amplification elements, and the others are different from this plane. 10.Container on PP. 1-9, distinguished by the fact that the longitudinal beams and reinforcing elements are located in the mutually intersecting planes. 11. Container but nn. 1 -10. recognized by the fact that the intersecting elements of the reservoir are pairwise interconnected. 12.Container on PP. 1 and II, characterized in that the walls and spheres of the reinforcing elements of the reinforcement elements are interconnected by a pipe. 13.Container but neither. 1. 10-12. different in that. that a plate is attached to the bottom LONGITTED beam of the container, which protrudes in FACE from the beams of the pipeline and is lined with a part to the shell. 14.Contact on PP. I - I am different in that. that the plates are attached to the stove. 15.Container on PP. 1-14, characterized in that. that it has reinforced arcuate elements connecting the longitudinal beams. Priority points: 02.29.72 on PP. 1, 2, 5, 8, 9; 10/30/71 to paragraphs 3, 4, 7, 10, 11; 02.27.73пп пп. 12-15. FIG. 2 FIG. 3 nineteen 25 YU 20 3 fPua.ff FIG. 9